OPERATIONAL AMPLIFIERS. o/p

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1 OPERATIONAL AMPLIFIERS 1. If the input to the circuit of figure is a sine wave the output will be i/p o/p a. A half wave rectified sine wave b. A fullwave rectified sine wave c. A triangular wave d. A square wave [GATE1990: 2 Marks] Ans. (d) Explanation: The opamp is in openloop so it will work as comparator. The circuit shown here is a zero crossing detector a special case of comparator. When the input is above ground level, the output is saturated at its negative maximum and when the input is below ground, the output is at its positive maximum. 2. An Op Amp has offset voltage of 1mV and is ideal in all other respects. If this Op Amp is used in the circuit shown in figure. The output voltage will be (Select the nearest value) 1MΩ 1KΩ a. 1 mv b. 1 V c. ± 1V d. 0 V [GATE1992: 2 Marks]

2 Ans. (c) Explanation: = = = V is = V offset = 1 mv = V is. Gain = = 1 V It may be ± 1V (since the polarity of offset voltage is not know) 3. The circuit shown in the figure is that of V in R 1 R 2 a. a noninverting Amplifiers b. an inverting Amplifiers c. an oscillator d. a Schmitt trigger [GATE1996: 1 Mark] Ans. (d) Explanation: The circuit has a positive feedback and in positive feedback, opamp operates in its saturation region. It is a fast operating voltage level detector. The circuit switches between negative and positive output voltage levels ( V sat to V sat ). It is Schmitt trigger circuit. 4. One input terminal of high gain comparator circuit is connected to ground and a sinusoidal voltage is applied to the other input. The output of comparator will be

4 6. The most commonly used amplifier in sample and hold circuit is a. a unity gain inverting amplifier b. a unity gain non inverting amplifier c. an inverting amplifier with a gain of 10 d. an inverting amplifier with a gain of 100 [GATE2000: 1 Mark] Ans. (b) Explanation: The most commonly used amplifier in sample and hold circuit is a unity gain non inverting amplifier. Since the polarity and amplitude of the samples have to remains same. 7. If the Op Amp in the figure has an input offset voltage of 5 mv and an openloop voltage gain of 10,000 then will be 15V 15V a. 0 V b. 5 mv Marks] c. 15 V or 15 V d. 50 V or 50 V [GATE2000: 2 Ans. (c) Explanation: Output = =, = But (output voltage) in open loop can never be greater than ± V sat So, ± 15 V 8. The ideal Op Amp has the following characteristics. a. R i =, A =, R 0 = 0 b. R i = 0, A =, R 0 = 0 c. R i =, A =, R 0 = d. R i = 0, A =, R 0 = [GATE2000: 1 Mark]

5 Ans. (a) Explanation: An ideal opamp has infinite voltage gain, infinite input resistance and zero output resistance. 9. If the differential voltage gain and the common mode voltage gain of a differential amplifier are 48 db and 2 db respectively, then its common mode rejection ratio is a. 23 db b. 25 db Ans. (c) Explanation: = = CMRR = 48 2 = 46 db c. 46 db d. 50 db [GATE2003: 1 Mark] 10. The voltage e 0 indicated in the figure has been measured by an ideal voltmeter, which of the following can be calculated? 1MΩ e 0 1MΩ a. Bias current of the inverting input only b. Bias current of the inverting and noninverting inputs only c. Input offset current only d. Both the bias current and the input offset current [GATE2005: 2 Marks]

7 12. If the opamp in the figure, is ideal then is C V 1 sinωt C V 2 sinωt C a. Zero b. (V 1 V 2 ) sin ωt c. (V 1 V 2 ) sin ωt d. (V 1 V 2 ) sin ωt [GATE2000: 1 Mark] Ans. (c) Explanation: The opamp in the figure is ideal then = =,= = = = Point to note: An inverting amplifier can have more than one input because with virtual ground point, each input is isolated from the other. Each input sees its own input resistance and nothing else.

8 13. Assume that the opamp of the figure is ideal. If V i is a triangular wave, then will be R C a. square wave b. triangular wave c. parabolic wave d. sine wave [GATE2000: 1 Mark] Ans. (a) Explanation: The circuit shown here is a differentiator which provides an output voltage proportional to the rate of change of the input voltage = All the input is a triangular wave, the output will be a square wave. 14. The inverting opamp shown in the figure has an openloop gain of 100. The closedloop gain / V S is R 2 = 10 KΩ V S R 1 = 1 KΩ V i a. 8 b. 9 c. 10 d. 11

9 [GATE2001: 2 Marks] Ans. (b) Explanation: The open loop gain of the opamp is 100. Then the gain with negative feedback is negative since input is at inverting terminal and is given by = = = = = = Point to note: Relations of gain are derived for opamps assume the open loop gain as infinite. Since the open loop gain is low i.e. 100, the gain with feedback is to be derived. 15. If the opamp in the figure is ideal, the output voltage V out will be equal to 5 KΩ 2 V 1 KΩ 3 V 1 KΩ V 1 V out 8 KΩ a. 1 V b. 6 V c. 14 V d. 17 [GATE2003: 2 Marks] Ans. (b) Explanation: The opamp in the figure is ideal The output due to inverting input = =

11 a. b. c. d. [GATE2010: 1 Mark] Ans. (a) Explanation: The circuit can be redrawn as R 2 R 1 V i ± R 3 The voltage gain = 18. The circuit below implement a filter between the input current i i and output voltage the opamp is ideal. The filter implemented is a L 1 R 1 I i a. low pass filter b. band pass filter c. band stop filter d. high pass filter [GATE2011: 1 Mark]

12 Ans. (d) Explanation: At high frequency ω =, ωl = At ω = 0, X L = ωl = 0 So the branch containing L will be shorted, the circuit can be redrawn as following R 1 I i The output = 0 At high frequency ω =, X L = ωl (very large) The circuit is redrawn as shown R 1 I i = R 1. I i The given circuit is a high pass filter

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